Fixed circular imports
This commit is contained in:
parent
dc5d75cf75
commit
d7164599f0
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@ -6,7 +6,7 @@ from typing import TYPE_CHECKING, Optional, Tuple
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if TYPE_CHECKING:
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if TYPE_CHECKING:
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from .interpreter import InterpreterState, StackEntry
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from .interpreter import InterpreterState, StackEntry
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from .interpreter import StackType, FunctionItem
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from .interpreter_types import StackType
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from .lexer import Token, TokenType, IntegerLiteral, IntegerBuiltInType, Identifier
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from .lexer import Token, TokenType, IntegerLiteral, IntegerBuiltInType, Identifier
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@ -34,45 +34,45 @@ def extract_numeric_value(entry: "StackEntry") -> Optional[Tuple[float, int, int
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ival = 0
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ival = 0
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if entry.type == StackType.I64:
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if entry.type == StackType.I64:
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ival = int(entry.value)
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ival = int(entry.value) # type: ignore
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fval = float(ival)
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fval = float(ival)
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flags = NumericTypeFlags.BITS_64 | NumericTypeFlags.SIGNED
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flags = NumericTypeFlags.BITS_64 | NumericTypeFlags.SIGNED
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elif entry.type == StackType.I32:
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elif entry.type == StackType.I32:
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ival = int(entry.value)
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ival = int(entry.value) # type: ignore
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fval = float(ival)
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fval = float(ival)
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flags = NumericTypeFlags.BITS_32 | NumericTypeFlags.SIGNED
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flags = NumericTypeFlags.BITS_32 | NumericTypeFlags.SIGNED
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elif entry.type == StackType.I16:
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elif entry.type == StackType.I16:
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ival = int(entry.value)
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ival = int(entry.value) # type: ignore
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fval = float(ival)
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fval = float(ival)
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flags = NumericTypeFlags.BITS_16 | NumericTypeFlags.SIGNED
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flags = NumericTypeFlags.BITS_16 | NumericTypeFlags.SIGNED
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elif entry.type == StackType.I8:
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elif entry.type == StackType.I8:
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ival = int(entry.value)
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ival = int(entry.value) # type: ignore
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fval = float(ival)
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fval = float(ival)
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flags = NumericTypeFlags.BITS_8 | NumericTypeFlags.SIGNED
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flags = NumericTypeFlags.BITS_8 | NumericTypeFlags.SIGNED
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elif entry.type == StackType.U64:
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elif entry.type == StackType.U64:
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ival = int(entry.value)
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ival = int(entry.value) # type: ignore
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fval = float(ival)
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fval = float(ival)
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flags = NumericTypeFlags.BITS_64
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flags = NumericTypeFlags.BITS_64
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elif entry.type == StackType.U32:
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elif entry.type == StackType.U32:
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ival = int(entry.value)
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ival = int(entry.value) # type: ignore
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fval = float(ival)
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fval = float(ival)
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flags = NumericTypeFlags.BITS_32
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flags = NumericTypeFlags.BITS_32
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elif entry.type == StackType.U16:
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elif entry.type == StackType.U16:
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ival = int(entry.value)
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ival = int(entry.value) # type: ignore
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fval = float(ival)
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fval = float(ival)
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flags = NumericTypeFlags.BITS_16
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flags = NumericTypeFlags.BITS_16
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elif entry.type == StackType.U8:
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elif entry.type == StackType.U8:
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ival = int(entry.value)
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ival = int(entry.value) # type: ignore
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fval = float(ival)
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fval = float(ival)
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flags = NumericTypeFlags.BITS_8
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flags = NumericTypeFlags.BITS_8
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elif entry.type == StackType.FLOAT:
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elif entry.type == StackType.FLOAT:
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fval = float(entry.value)
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fval = float(entry.value) # type: ignore
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flags = NumericTypeFlags.BITS_32 | NumericTypeFlags.FLOAT
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flags = NumericTypeFlags.BITS_32 | NumericTypeFlags.FLOAT
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elif entry.type == StackType.DOUBLE:
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elif entry.type == StackType.DOUBLE:
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fval = float(entry.value)
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fval = float(entry.value) # type: ignore
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flags = NumericTypeFlags.BITS_64 | NumericTypeFlags.FLOAT
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flags = NumericTypeFlags.BITS_64 | NumericTypeFlags.FLOAT
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elif entry.type == StackType.CHARACTER:
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elif entry.type == StackType.CHARACTER:
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ival = int(entry.value)
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ival = int(entry.value) # type: ignore
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fval = float(ival)
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fval = float(ival)
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flags = NumericTypeFlags.BITS_8
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flags = NumericTypeFlags.BITS_8
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elif entry.type == StackType.BOOLEAN:
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elif entry.type == StackType.BOOLEAN:
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@ -177,36 +177,36 @@ def is_truthy(entry: "StackEntry") -> bool:
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return bool(entry.value)
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return bool(entry.value)
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elif entry.type in (StackType.TOKEN_STRING, StackType.CALLABLE):
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elif entry.type in (StackType.TOKEN_STRING, StackType.CALLABLE):
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ts = entry.value
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ts = entry.value
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return len(ts.tokens) > 0 and ts.tokens[0].type != TokenType.EOF
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return len(ts.tokens) > 0 and ts.tokens[0].type != TokenType.EOF # type: ignore
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return False
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return False
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def get_scalar_value(entry: "StackEntry") -> Optional[int]:
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def get_scalar_value(entry: "StackEntry") -> Optional[int]:
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"""Extract a scalar (non-negative integer) value from stack entry"""
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"""Extract a scalar (non-negative integer) value from stack entry"""
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if entry.type == StackType.I64:
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if entry.type == StackType.I64:
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val = int(entry.value)
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val = int(entry.value) # type: ignore
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if val < 0:
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if val < 0:
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return None
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return None
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return val
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return val
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elif entry.type == StackType.I32:
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elif entry.type == StackType.I32:
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val = int(entry.value)
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val = int(entry.value) # type: ignore
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if val < 0:
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if val < 0:
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return None
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return None
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return val
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return val
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elif entry.type == StackType.I16:
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elif entry.type == StackType.I16:
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val = int(entry.value)
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val = int(entry.value) # type: ignore
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if val < 0:
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if val < 0:
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return None
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return None
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return val
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return val
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elif entry.type == StackType.I8:
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elif entry.type == StackType.I8:
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val = int(entry.value)
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val = int(entry.value) # type: ignore
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if val < 0:
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if val < 0:
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return None
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return None
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return val
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return val
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elif entry.type in (StackType.U64, StackType.U32, StackType.U16, StackType.U8):
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elif entry.type in (StackType.U64, StackType.U32, StackType.U16, StackType.U8):
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return int(entry.value)
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return int(entry.value) # type: ignore
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elif entry.type == StackType.CHARACTER:
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elif entry.type == StackType.CHARACTER:
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return int(entry.value)
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return int(entry.value) # type: ignore
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elif entry.type == StackType.BOOLEAN:
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elif entry.type == StackType.BOOLEAN:
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return 1 if entry.value else 0
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return 1 if entry.value else 0
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else:
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else:
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@ -800,7 +800,7 @@ def builtin_dup(state: "InterpreterState") -> bool:
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# Deep copy for token strings
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# Deep copy for token strings
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if top.type in (StackType.TOKEN_STRING, StackType.CALLABLE):
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if top.type in (StackType.TOKEN_STRING, StackType.CALLABLE):
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value_copy = top.value.deep_copy()
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value_copy = top.value.deep_copy() # type: ignore
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else:
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else:
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value_copy = top.value
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value_copy = top.value
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@ -825,8 +825,8 @@ def builtin_swap(state: "InterpreterState") -> bool:
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a = state.pop()
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a = state.pop()
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b = state.pop()
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b = state.pop()
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state.push(a)
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state.push(a) # type: ignore
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state.push(b)
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state.push(b) # type: ignore
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return True
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return True
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@ -869,7 +869,7 @@ def builtin_pick(state: "InterpreterState") -> bool:
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# Deep copy for token strings
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# Deep copy for token strings
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if picked.type in (StackType.TOKEN_STRING, StackType.CALLABLE):
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if picked.type in (StackType.TOKEN_STRING, StackType.CALLABLE):
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value_copy = picked.value.deep_copy()
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value_copy = picked.value.deep_copy() # type: ignore
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else:
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else:
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value_copy = picked.value
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value_copy = picked.value
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@ -937,13 +937,13 @@ def builtin_if(state: "InterpreterState") -> bool:
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condition = state.pop()
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condition = state.pop()
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# Check that blocks are executable
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# Check that blocks are executable
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if else_block.type not in (StackType.TOKEN_STRING, StackType.CALLABLE, StackType.IDENTIFIER):
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if else_block.type not in (StackType.TOKEN_STRING, StackType.CALLABLE, StackType.IDENTIFIER): # type: ignore
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return False
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return False
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if then_block.type not in (StackType.TOKEN_STRING, StackType.CALLABLE, StackType.IDENTIFIER):
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if then_block.type not in (StackType.TOKEN_STRING, StackType.CALLABLE, StackType.IDENTIFIER): # type: ignore
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return False
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return False
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# Evaluate condition
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# Evaluate condition
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is_true = is_truthy(condition)
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is_true = is_truthy(condition) # type: ignore
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# Execute appropriate block
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# Execute appropriate block
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if is_true:
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if is_true:
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@ -951,10 +951,10 @@ def builtin_if(state: "InterpreterState") -> bool:
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else:
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else:
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block_to_execute = else_block
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block_to_execute = else_block
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if block_to_execute.type == StackType.IDENTIFIER:
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if block_to_execute.type == StackType.IDENTIFIER: # type: ignore
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return state.execute_func(block_to_execute.value.name)
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return state.execute_func(block_to_execute.value.name) # type: ignore
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else:
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else:
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return state.execute_token_string(block_to_execute.value)
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return state.execute_token_string(block_to_execute.value) # type: ignore
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def builtin_while(state: "InterpreterState") -> bool:
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def builtin_while(state: "InterpreterState") -> bool:
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@ -966,18 +966,18 @@ def builtin_while(state: "InterpreterState") -> bool:
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condition_block = state.pop()
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condition_block = state.pop()
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# Check that blocks are executable
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# Check that blocks are executable
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if body_block.type not in (StackType.TOKEN_STRING, StackType.CALLABLE, StackType.IDENTIFIER):
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if body_block.type not in (StackType.TOKEN_STRING, StackType.CALLABLE, StackType.IDENTIFIER): # type: ignore
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return False
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return False
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if condition_block.type not in (StackType.TOKEN_STRING, StackType.CALLABLE, StackType.IDENTIFIER):
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if condition_block.type not in (StackType.TOKEN_STRING, StackType.CALLABLE, StackType.IDENTIFIER): # type: ignore
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return False
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return False
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while True:
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while True:
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# Execute condition block
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# Execute condition block
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if condition_block.type == StackType.IDENTIFIER:
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if condition_block.type == StackType.IDENTIFIER: # type: ignore
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if not state.execute_func(condition_block.value.name):
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if not state.execute_func(condition_block.value.name): # type: ignore
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return False
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return False
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else:
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else:
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if not state.execute_token_string(condition_block.value):
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if not state.execute_token_string(condition_block.value): # type: ignore
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return False
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return False
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# Check result
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# Check result
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@ -985,15 +985,15 @@ def builtin_while(state: "InterpreterState") -> bool:
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return False
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return False
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condition_result = state.pop()
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condition_result = state.pop()
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if not is_truthy(condition_result):
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if not is_truthy(condition_result): # type: ignore
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break
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break
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# Execute body block
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# Execute body block
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if body_block.type == StackType.IDENTIFIER:
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if body_block.type == StackType.IDENTIFIER: # type: ignore
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if not state.execute_func(body_block.value.name):
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if not state.execute_func(body_block.value.name): # type: ignore
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return False
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return False
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else:
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else:
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if not state.execute_token_string(body_block.value):
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if not state.execute_token_string(body_block.value): # type: ignore
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return False
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return False
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return True
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return True
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@ -1009,11 +1009,11 @@ def builtin_for(state: "InterpreterState") -> bool:
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start_item = state.pop()
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start_item = state.pop()
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# Check that block is executable
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# Check that block is executable
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if body_block.type not in (StackType.TOKEN_STRING, StackType.CALLABLE, StackType.IDENTIFIER):
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if body_block.type not in (StackType.TOKEN_STRING, StackType.CALLABLE, StackType.IDENTIFIER): # type: ignore
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return False
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return False
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start_val = get_scalar_value(start_item)
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start_val = get_scalar_value(start_item) # type: ignore
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end_val = get_scalar_value(end_item)
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end_val = get_scalar_value(end_item) # type: ignore
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if start_val is None or end_val is None:
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if start_val is None or end_val is None:
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return False
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return False
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@ -1028,11 +1028,11 @@ def builtin_for(state: "InterpreterState") -> bool:
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return False
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return False
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# Execute body
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# Execute body
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if body_block.type == StackType.IDENTIFIER:
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if body_block.type == StackType.IDENTIFIER: # type: ignore
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if not state.execute_func(body_block.value.name):
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if not state.execute_func(body_block.value.name): # type: ignore
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return False
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return False
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else:
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else:
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if not state.execute_token_string(body_block.value):
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if not state.execute_token_string(body_block.value): # type: ignore
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return False
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return False
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return True
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return True
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@ -1049,10 +1049,10 @@ def builtin_eval(state: "InterpreterState") -> bool:
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code_target = state.pop()
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code_target = state.pop()
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if code_target.type in (StackType.TOKEN_STRING, StackType.CALLABLE):
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if code_target.type in (StackType.TOKEN_STRING, StackType.CALLABLE): # type: ignore
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return state.execute_token_string(code_target.value)
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return state.execute_token_string(code_target.value) # type: ignore
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elif code_target.type == StackType.IDENTIFIER:
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elif code_target.type == StackType.IDENTIFIER: # type: ignore
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return state.execute_func(code_target.value.name)
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return state.execute_func(code_target.value.name) # type: ignore
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else:
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else:
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return False
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return False
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@ -1077,21 +1077,20 @@ def builtin_const(state: "InterpreterState") -> bool:
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name_entry = state.pop()
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name_entry = state.pop()
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value_entry = state.pop()
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value_entry = state.pop()
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if name_entry.type != StackType.IDENTIFIER:
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if name_entry.type != StackType.IDENTIFIER: # type: ignore
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return False
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return False
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if value_entry.type != StackType.CALLABLE:
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if value_entry.type != StackType.CALLABLE: # type: ignore
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return False
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return False
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name = name_entry.value.name
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name = name_entry.value.name # type: ignore
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# Check if function already exists
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# Check if function already exists
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if state.get_function(name) is not None:
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if state.get_function(name) is not None:
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return False
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return False
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# Create function item
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# Create function item
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func_item = FunctionItem.from_token_string(value_entry.value)
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state.add_function(name, value_entry.value) # type: ignore
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state.add_function(name, func_item)
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return True
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return True
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@ -1122,7 +1121,7 @@ def builtin_type_of(state: "InterpreterState") -> bool:
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StackType.CALLABLE: "Callable",
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StackType.CALLABLE: "Callable",
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}
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}
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type_name = type_names.get(item.type, "Unknown")
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type_name = type_names.get(item.type, "Unknown") # type: ignore
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return state.push_token(Token(
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return state.push_token(Token(
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type=TokenType.IDENTIFIER,
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type=TokenType.IDENTIFIER,
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@ -1234,8 +1233,7 @@ def load_builtins(interpreter_state: "InterpreterState") -> bool:
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# Register all builtins
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# Register all builtins
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for name, func in builtins.items():
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for name, func in builtins.items():
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func_item = FunctionItem.from_builtin(func)
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interpreter_state.add_function(name, func)
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interpreter_state.add_function(name, func_item)
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# Load SLS-defined builtins
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# Load SLS-defined builtins
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try:
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try:
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@ -11,27 +11,10 @@ from .lexer import (
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IntegerBuiltInType,
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IntegerBuiltInType,
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)
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)
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from .interpreter_types import StackType
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from .builtin import load_builtins
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from .builtin import load_builtins
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class StackType(Enum):
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IDENTIFIER = auto()
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I64 = auto()
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I32 = auto()
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I16 = auto()
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I8 = auto()
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U64 = auto()
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U32 = auto()
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U16 = auto()
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U8 = auto()
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FLOAT = auto()
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DOUBLE = auto()
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CHARACTER = auto()
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BOOLEAN = auto()
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TOKEN_STRING = auto()
|
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||||||
CALLABLE = auto()
|
|
||||||
|
|
||||||
|
|
||||||
@dataclass
|
@dataclass
|
||||||
class StackEntry:
|
class StackEntry:
|
||||||
type: StackType
|
type: StackType
|
||||||
|
|
@ -42,6 +25,7 @@ class FunctionType(Enum):
|
||||||
TOKEN_STRING = auto()
|
TOKEN_STRING = auto()
|
||||||
BUILTIN = auto()
|
BUILTIN = auto()
|
||||||
|
|
||||||
|
type FunctionData = TokenString | Callable[["InterpreterState"], bool]
|
||||||
|
|
||||||
@dataclass
|
@dataclass
|
||||||
class FunctionItem:
|
class FunctionItem:
|
||||||
|
|
@ -49,6 +33,13 @@ class FunctionItem:
|
||||||
token_string: Optional[TokenString] = None
|
token_string: Optional[TokenString] = None
|
||||||
builtin: Optional[Callable[["InterpreterState"], bool]] = None
|
builtin: Optional[Callable[["InterpreterState"], bool]] = None
|
||||||
|
|
||||||
|
@classmethod
|
||||||
|
def from_item(cls, item: FunctionData) -> "FunctionItem":
|
||||||
|
if isinstance(item, TokenString):
|
||||||
|
return cls.from_token_string(item)
|
||||||
|
else:
|
||||||
|
return cls.from_builtin(item)
|
||||||
|
|
||||||
@classmethod
|
@classmethod
|
||||||
def from_token_string(cls, ts: TokenString) -> "FunctionItem":
|
def from_token_string(cls, ts: TokenString) -> "FunctionItem":
|
||||||
return cls(type=FunctionType.TOKEN_STRING, token_string=ts)
|
return cls(type=FunctionType.TOKEN_STRING, token_string=ts)
|
||||||
|
|
@ -93,8 +84,8 @@ class InterpreterState:
|
||||||
# -------------------------
|
# -------------------------
|
||||||
# function table
|
# function table
|
||||||
# -------------------------
|
# -------------------------
|
||||||
def add_function(self, name: str, item: FunctionItem) -> None:
|
def add_function(self, name: str, item: FunctionData) -> None:
|
||||||
self.functions[name] = item
|
self.functions[name] = FunctionItem.from_item(item)
|
||||||
|
|
||||||
def get_function(self, name: str) -> Optional[FunctionItem]:
|
def get_function(self, name: str) -> Optional[FunctionItem]:
|
||||||
return self.functions.get(name)
|
return self.functions.get(name)
|
||||||
|
|
|
||||||
|
|
@ -0,0 +1,18 @@
|
||||||
|
from enum import Enum, auto
|
||||||
|
|
||||||
|
class StackType(Enum):
|
||||||
|
IDENTIFIER = auto()
|
||||||
|
I64 = auto()
|
||||||
|
I32 = auto()
|
||||||
|
I16 = auto()
|
||||||
|
I8 = auto()
|
||||||
|
U64 = auto()
|
||||||
|
U32 = auto()
|
||||||
|
U16 = auto()
|
||||||
|
U8 = auto()
|
||||||
|
FLOAT = auto()
|
||||||
|
DOUBLE = auto()
|
||||||
|
CHARACTER = auto()
|
||||||
|
BOOLEAN = auto()
|
||||||
|
TOKEN_STRING = auto()
|
||||||
|
CALLABLE = auto()
|
||||||
|
|
@ -306,7 +306,7 @@ class Lexer:
|
||||||
# Skip comments
|
# Skip comments
|
||||||
if (c == '/' and self.far_peek(1) == '/') or c == '#':
|
if (c == '/' and self.far_peek(1) == '/') or c == '#':
|
||||||
while self.peek() not in ('\n', '\0'):
|
while self.peek() not in ('\n', '\0'):
|
||||||
self.advance()
|
c = self.advance()
|
||||||
|
|
||||||
# Skip whitespace
|
# Skip whitespace
|
||||||
if c.isspace():
|
if c.isspace():
|
||||||
|
|
|
||||||
Loading…
Reference in New Issue